Zainab H. Mohsein | Processing and Manufacturing | Best Researcher Award

Published on by Composite Awards

Best Researcher Award

Zainab H. Mohsein
University of Technology, Iraq
Zainab H. Mohsein
Affiliation University of Technology
Country Iraq
Scopus ID 57213596369
Documents 12
Citations 17
h-index 2
Subject Area Processing and Manufacturing
Event Global Composite Awards
ORCID 0009-0002-8837-8739

The Best Researcher Award recognizes scholarly achievement, research productivity, and contributions to scientific advancement. Zainab H. Mohsein, affiliated with the University of Technology, Iraq, has established a developing academic profile within the field of processing and manufacturing. Her published research reflects engagement with manufacturing technologies, materials processing, and engineering applications relevant to industrial innovation and composite systems. The following article summarizes her research background, contributions, impact indicators, and suitability for academic recognition within the framework of the Global Composite Awards.[1]

Abstract

Zainab H. Mohsein is an emerging researcher in the field of processing and manufacturing with scholarly interests connected to composite materials, manufacturing processes, material performance, and engineering applications. Her academic work contributes to understanding production methodologies, material optimization, and industrial development. Through peer-reviewed publications indexed in international databases, she has participated in advancing scientific knowledge relevant to manufacturing innovation and composite technologies. Her research profile demonstrates sustained engagement with applied engineering challenges while supporting broader objectives related to material efficiency, technological advancement, and industrial sustainability within contemporary manufacturing environments.[1]

Keywords

  • Composite Materials
  • Manufacturing Processes
  • Materials Engineering
  • Industrial Production
  • Process Optimization
  • Composite Technology
  • Advanced Manufacturing
  • Engineering Research

Introduction

Processing and manufacturing research supports technological advancement through improved production methods, material utilization, and industrial innovation. Zainab H. Mohsein contributes to this discipline through studies associated with manufacturing systems and engineering materials. Her work reflects engagement with practical challenges affecting performance, efficiency, and quality in modern industrial environments.[2]

Research Profile

The research profile of Zainab H. Mohsein is characterized by publications indexed in Scopus and contributions within processing and manufacturing disciplines. Her scholarly record includes studies addressing engineering materials, manufacturing methodologies, and industrial applications. The profile demonstrates active participation in academic research and collaboration supporting scientific and technological development.[1]

Research Contributions

Research contributions include investigations related to manufacturing technologies, material processing, and composite engineering. These studies contribute to improving understanding of production performance and material behavior under varying operational conditions. Her work supports evidence-based approaches for enhancing manufacturing quality, process reliability, and industrial productivity across engineering applications.[3]

Publications

With twelve indexed documents, the publication record reflects consistent academic engagement in processing and manufacturing research. The published studies contribute to scientific discussions concerning materials engineering, manufacturing optimization, and applied industrial technologies. Collectively, these publications establish a foundation for continued scholarly development and future research expansion.[1]

Research Impact

Research impact may be evaluated through publication output, citation activity, and scholarly visibility. The available metrics indicate growing recognition within relevant academic communities. Citation records and indexing in international databases contribute to the dissemination of research findings and support broader engagement with manufacturing and composite engineering topics.[1]

Award Suitability

Zainab H. Mohsein demonstrates qualities aligned with the objectives of the Best Researcher Award through active scholarly participation, peer-reviewed publications, and contributions to processing and manufacturing research. Her work supports scientific advancement in engineering disciplines and reflects a commitment to developing knowledge that may benefit industrial and academic communities.[1]

Conclusion

The academic record of Zainab H. Mohsein highlights contributions within processing and manufacturing research through publications, collaborative scholarship, and scientific engagement. Her developing research profile, supported by international indexing and measurable scholarly outputs, demonstrates meaningful participation in engineering research and provides a suitable basis for academic recognition.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Zainab H. Mohsein, Author ID 57213596369. Scopus.https://www.scopus.com/authid/detail.uri?authorId=57213596369
  2. ORCID. (n.d.). Researcher Profile: Zainab H. Mohsein.https://orcid.org/0009-0002-8837-8739
  3. Mohsein, Z. H., Jawad, W. K., & Abed, A. H. (Year). Design and optimization of multi-stage deep drawing process for complex shapes: A case study on pentagonal shapes with reduced laminating defects. Journal Name, Volume(Issue), page range. https://pubs.aip.org/aip/acp/article-abstract/3169/1/040043/3334899/Design-and-optimization-of-multi-stage-deep?redirectedFrom=fulltext
  4. Global Composite Awards. (n.d.). Official Event Website.https://globalcompositeawards.com/

Fei Liu | Processing and Manufacturing | Research Excellence Award

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Fei Liu | Processing and Manufacturing | Research Excellence Award

Mr. Fei Liu at Hefei University of Technology | China

Dr. Fei Liu is a researcher at Hefei University of Technology with expertise in advanced manufacturing and laser welding of dissimilar materials. His work primarily focuses on Al/Cu laser-welded joints, emphasizing the role of filler materials, interlayers, and alloying elements in controlling microstructure and mechanical properties. He has published recent open-access studies on Ag-based fillers and Al–Si welding wires to enhance joint strength and performance. His research contributes to lightweight structural design and electronic packaging applications. Dr. Liu has authored 30 Scopus-indexed documents. These publications have received 808 citations from 681 citing documents. He currently holds an h-index of 14, reflecting his growing impact in welding and precision engineering research.

 

Citation Metrics (Scopus Preview)

900
675
450
225
0

Citations
808

Documents
30

h-index
14

                         🟦 Citations    🟥 Documents    🟩 h-index

Featured Publications

Effect of Silicon Content in Al–Si Welding Wire on Mechanical Properties of Al/Cu Laser Welded Joint

International Journal of Precision Engineering and Manufacturing, 2024 · Citations: 0

Microstructure and Performance Study of Al/Cu Laser Welding with Ag Interlayer

International Journal of Precision Engineering and Manufacturing, 2024 · Citations: 9

Anteneh Belayneh Melese | Processing and Manufacturing | Editorial Board Member

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Anteneh Belayneh Melese | Processing and Manufacturing | Editorial Board Member

Mr. Anteneh Belayneh Melese at Debre Markos University | Ethiopia

Anteneh Belayneh Melese is a dynamic pharmaceutical researcher and Lecturer of Pharmaceutics at Debre Markos University, Ethiopia, whose scholarly work spans pharmacokinetics, drug–food interactions, pediatric pharmaceutics, public health, and evidence-based medicine. His research has significantly advanced understanding of antidiabetic flavonoids through computational approaches, particularly molecular docking and density functional theory, revealing their pharmacokinetic behavior and drug-likeness properties. He has also contributed a widely referenced review on the influence of coffee consumption on drug pharmacokinetics, synthesizing evidence on how caffeine and related compounds alter drug metabolism and absorption, which has become a critical resource for clinicians and pharmacists. His investigations into the safety, stability, and biopharmaceutical challenges of excipients in pediatric formulations highlight major gaps in off-label pediatric drug compounding, emphasizing toxicity risks, formulation instability, and regulatory limitations. Anteneh’s impactful commentary on the off-label use of chloroquine and hydroxychloroquine for COVID-19 treatment in Africa critically examined their clinical risks and helped guide rational therapeutic decisions during the pandemic. His contributions also extend to ethnomedicine and public health, including systematic reviews on medicinal animals, traditional remedies for hemorrhoids, and antimicrobial resistance patterns among pediatric patients, reflecting a strong commitment to integrating indigenous knowledge with modern healthcare. Additionally, his research on medication non-adherence among diabetic patients and improper metered-dose inhaler techniques underscores his focus on patient-centered pharmaceutical care. Anteneh has further advanced pharmaceutics through formulation work, including optimizing monolithic fixed-dose combinations and orodispersible tablets for improved therapeutic outcomes. With over a decade of scientific engagement, more than 500 citations, and collaborations with international chemists, pharmacologists, and biochemists, his research portfolio demonstrates strong interdisciplinary impact. His body of work collectively strengthens pharmaceutical sciences, enhances medication safety, and supports the development of accessible, evidence-based healthcare solutions in Ethiopia and beyond.

Profile:  GoogleScholar
Featured Publications 

Jingqi Chen | Processing and Manufacturing | Best Researcher Award

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Jingqi Chen | Processing and Manufacturing | Best Researcher Award

Dr. Jingqi Chen at yanshan University | China

Jingqi Chen is a dedicated materials scientist and lecturer at the School of Mechanical Engineering, Yanshan University, whose research focuses on materials processing, advanced metallic materials, and their applications in next-generation energy systems. He earned his Ph.D. (2021) and M.S. (2017) in Materials Processing Engineering from Northeastern University, following a B.E. in Metallurgical Engineering (2015) from Anhui University of Technology. Since joining Yanshan University in 2021, Dr. Chen has led and contributed to several influential research projects, including serving as the Principal Investigator for a National Natural Science Foundation of China (NSFC) Young Scientists Fund project investigating micron-scale steel preparation for new-energy vehicle power batteries. His expertise extends to high-end steel manufacturing, surface engineering, and advanced electrode materials, supported by major industry- and government-funded initiatives such as the HBIS Group “Unveiling and Commanding” Science and Technology Project and the Hebei Provincial Innovation Consortium Special Project. Dr. Chen has established a strong publication record, producing impactful research on copper foil deformation behavior, graphene-modified aluminum foils, high-performance Fe-Si alloy thin sheets, and advanced graphene-wrapped nanocomposites for lithium-ion battery electrodes. His papers appear in leading journals such as Journal of Alloys and Compounds, Applied Surface Science, Journal of Materials Science & Technology, and Transactions of Nonferrous Metals Society of China. With 26 publications, 406 citations across 375 documents, and an h-index of 11, he has earned recognition for advancing the understanding of micro-rolling mechanics, corrosion-resistant current collectors, and structural optimization of battery materials. Dr. Chen’s work continues to bridge fundamental materials science with industrial application, contributing to the development of safer, more efficient energy storage technologies and high-performance metallic materials for modern manufacturing.

Profile:  Scopus
Featured Publications 

Sunil Kumar Prajapati | Additive Manufacturing | Best Researcher Award

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Sunil Kumar Prajapati | Additive Manufacturing | Best Researcher Award

Dr. Sunil Kumar Prajapati, Indian Institute Of Technology–Madras, India.

Yangyang Cheng | Additive Manufacturing | Best Researcher Award

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Yangyang Cheng | Additive Manufacturing | Best Researcher Award

Dr. Yangyang Cheng, Yanshan University, China.

Yangyang Cheng is a doctoral candidate at the School of Mechanical Engineering, Yanshan University, specializing in piezoelectric ceramic materials. 🔬 His research focuses on performance analysis and preparation of piezoelectric ceramics, utilizing first-principles methods to explore their structural and electronic properties. 🏗️ He has published five academic papers 📄 and secured five invention patents. 🏅 Additionally, Cheng has contributed to major projects, including those funded by the National Natural Science Foundation of China and the State Key Laboratory of New Ceramic Materials. His work advances high-performance and stable piezoelectric devices for applications in electronic communication and piezoelectric driving. ⚙️

Publication Profile

Scopus

Education & Experience 🎓🔬

  • Doctoral Candidate (Ph.D.) in Mechanical Engineering, Yanshan University (Five-year combined Master’s and Ph.D. program) 🏫

  • Specializes in piezoelectric ceramics, additive manufacturing, and first-principles analysis 🔬

  • Published five academic papers in SCI and EI journals 📑

  • Secured five invention patents in mechanical design and materials science 🔖

  • Participated in two national research projects, including NSFC-funded studies and key laboratory initiatives 🔬

  • Engaged in research on high-precision microactuators using dual-flexible hinge stacked piezoelectric structures ⚙️

Summary Suitability

Dr. Yangyang Cheng , a doctoral candidate in Mechanical Engineering at Yanshan University, has demonstrated exceptional research capabilities in piezoelectric ceramics, additive manufacturing, and first-principles calculations. With an impressive portfolio of five published academic papers, five invention patents, and participation in multiple national research projects, he has made significant contributions to the field of advanced materials and precision engineering. His research has provided crucial insights into the mechanical and electronic properties of piezoelectric ceramics, making him a deserving recipient of the Best Researcher Award.

Professional Development  📚🔬✨

Cheng Yangyang is dedicated to advancing the field of piezoelectric ceramics and high-precision actuators. 💡 His research leverages first-principles methods to investigate stress-induced property changes in PbTiO3, contributing to the development of next-generation piezoelectric devices. 🔬 With five research papers 📄 and five patents, he has made significant strides in mechanical engineering and materials science. 🏆 His involvement in national and key laboratory-funded projects provides a platform for real-world applications of his findings. 💼 Through additive manufacturing and computational modeling, he continues to push the boundaries of ceramic materials research for industrial and technological advancements. ⚙️

Research Focus  🔬🌱🌍

Cheng Yangyang’s research primarily revolves around piezoelectric ceramics, additive manufacturing, and first-principles computational methods. 🏗️ His studies focus on the performance, structure, and electronic properties of PbTiO3, a widely used ferroelectric ceramic, under different stress conditions. 🔬 By employing density functional theory, he explores how uniaxial stress modulates the material’s physical properties, aiming to enhance its application in electronic communication and piezoelectric actuation systems. 📡 His work contributes to the development of high-performance, stable piezoelectric devices for modern engineering applications, including precision actuators and smart materials in mechanical and electrical engineering. ⚡

Publication Top Notes